A fan of moment of inertia 0.6 kg `xx` `"metre"^2` is to run upto a working speed of 0.5 revolution per second. Indicate the correct value of the angular momentum of the fan

A fan of moment of inertia 0.6kgm^(2) is moving with a speed of 0.5 r.p.s. The angular momentum of the fan is

A solid cylinder of moment of inertia 0.625 kgm^(2) , rotates about its axis with an angular speed of 200 rad/s. What is the magnitude of angular momentum of the cylinder about its axis ?

A wheel of moment of inertia 5xx10^(-3) kg m^(2) is making 20 revolutions per second. If it is stopped in 20 s, then its angular retardation would be

A student sits on a stool that is free to rotate about a vertical axis. He holds out his arms horizontally, with a 4-kg weight in each hand. The stool is set in rotation with angular speed of 0.5 revolution per second. Calcualate the angular speed of the student is 90 cm and his rotational inertia is 7kg m^(2) . [Hint: Use conservation principle]

Moment of inertia of a body is 1 kg m2. If the body makes 2 revolutions per second, when its angular momentum is

The angular frequency of a fan of moment of inertia 0.1kgm^2 is increased from 30rpm to 60rpm when a torque of 0.03Nm acts on it. The number of revolutions made by the fan while the angular frequency is increased from 30rpm to 60rpm

A flywheel of moment of inertia 5.0 kg m^2 is rotated at a speed of 60 rad/s. Because of the frictionat te axle, it comes to rest in 5.0 minutes. Find a. The average torque of the friction. B. the total work done by the friction and c. the angular momentum of the wheel 1 minute before it stops rotating.

If a body of moment of inertia 2kgm^2 revolves about its own axis making 2 rotations per second, then its angular momentum (in J s) is

A wheel of moment of inertia 0.10 kg-m^2 is rotating about a shaft at an angular speed o 160 rev/minute. A second wheel is set into rotation at 300 rev/minute and is coupled to the same shaft so that both the wheels finally rotate with as common angular speed of 200 rev/minute. Find the moment of inertia o the second wheel.

A ring of mass 10kg and diameter 0.4m is rotated about an axis passing through its centre. If it makes 1800 revolutions per minute then , the angular momentum of the ring is